Hob



May 19, 1925. 1,538,770

E. WILDHABER HQB Filed Dec. 30, 1922 3 Sheets-Sheet 1 a fig". d

LEAH?" BY 6 Wafl ATTORNEY May 19, 1925.

E. WILDHABER HOB Filed Db. 30. 1922 3 Sheets-Sheet 2 May 19, 1925.

E. WILDHABER HOB Fild'Dec. 30, 1922 3 Sheets-Sheet 5 1 my NTOR 6. W

7 2 wZA ATTORNEY Patented May 19, 1925.

v UNITED STATES 1,538,770 PATENT oFFic ERNEST WILDHABER, OF BROOKLYN, NEW YORK, ASSIGNOR TO NILES-BEMENT-POND COMPANY, OF NEW'YORK, N. Y., A CORPORATION OF NEVV' JERSEY.

Application filed December 30, 1922. Serial No. 609,941.

a citizen of the- Republic oi Switzerland residin, at Brooklyn. in the county of lungs 5 and State of New York, have invented certain new and useful Improvements inHobs. of which the following, is a specification.

My invention relates to hobs and particularly -to hobs for cutting sprocket Wheels of the silent chain type, spline shafts, and similar articles having teeth provided with straight profiles.

One object of my invention is to provide a hob for cutting straight sidrd teeth on a sprocket wheel blank that shall consist of teeth arranged in the form of a thread and having two form cutting edges for simultaneousl finishing one side of each of two alternate blank teeth.

Another object of my invention-is to provide a hob that will out sprocket wheels to fit a predetermined chain irrespective of the number of teeth on the. blank. 1

Another object of my inventionis to provide a hob for cutting, straight sided teeth that shall comprise teeth arranged in the form of a thread having two straightfinishing cutting: edges formed on different hob teeth. one o." the teeth having: a finishing cutting edge beings located at the end of the hob.

Anotherobject o! my invention to provide :1 bob oi the above indicated character that shall comprise teeth arranged in the form of a thread. the lead on one side of the hob tccth differing from the lead on the oppo ite side of the hob teeth and two of the hob teeth having finishing cutting edges.

i'urthcr objectoi nrv invention is to provide a hob of the above indicated character that shall comprise teeth arranged in the form of a threat. a straight fin shing edae being formed on each of two of the hob 'tcethand one of the teeth having a finishing edn'e formed thereon being located,

at one end of the hob. one 'side of the hob teeth having; two dificrentf leads posite side of the hob teeth having one lead throughout.

Heretofore, it has'liecn. customary, with very few exccptiousfto' hob iarious articles by means of a generating operation. In such case. each of the various teeth on the and the op- ;side of the hob teeth hob serves to form a portion of the final contour of each tooth by a number of hob teeth. The last or final tooth on the hob may be set to cut on a radial line of the blank and in such case the exact form of the last hob cut on the blank. cated character have been made llGiI'QtOfOliEi for shaping screw slotting cutters. hen a hob is operated in such manner. one tooth on the hob operates substantially in the same manner as the toothon a Inilli-ng'cut- -ter. lt maybe noted in this regard that form hobs of the above indicated character on the blank being cut. However, in a form hob,.the fin'al con-{i tour of ea ch tooth on the blankis not formed tooth willv be Hobs of the above indi need to be centered in the same manner as milling cutters. t

In a form hob constructed in acogrdance with inv invention, a sprocket whel of the silent c'hain type or a spline shaft; may be bobbed with easb and efficiency. In; my pre-' ferred con truction opposite'sides 20f adjacent blank or sprocket tooth spaces are' simultaneou ly finished by cutting jcdgeslocated on. difi'crent hob teeth. By so "eonstructing the hob with two finishing cutting edges located on different teeth. it; is posi ;ible to bob sprocket wheels having! vario'gus numbers of teeth ii. the pitch remains the same. Although my invention is particularly directed to the hobbing of sprocket wheels and spline shafts. it is to be understood that such hobs are equally applicable to hobbinoother articles having substantiah l v straight tooth profiles.

in the preferred embodiment ofj'niy invention. the hob is provided with teeth arranged, in the form of a thread and one side of each of two tccth has .a formed finishing cutting edge. The tooth carrying one of said finishing edges is preferably located at the end of the hob. The side oithe hob teeth cari'yingthe finishing; cuttinggi'edg'e in- 'ternicdiate the ends oi. the hob has -eads. (1 0 lead of said side is constantiup to the. finishing edge and then is changed so as to prevent cutting by the teeth beyond such finishinaedge. The lead on tliehopposite side of the hob teeth i: maintained uniform and may be the same as the lead of the teeth following the finishing edge in the cutting edge midway between the ends of having: the nishingis disclosed in my application Serial No. 609.944, filed December 30, 1922, It is to be understood that hobs constructed in accordance with my invention-may be, made in accordance with any well known methods.

Preferably. certain teeth oi the hob are ground and especially the two finishing cutting edge-s. e

in the accompanying drawings:

Figurel is a diagrammatic view wherein one tooth on the hob carries the two finishing cutting edges.

v Fig. is an end view of the hob shown in Fig.

Fig. 3 is a plan view of the hob and blank shown in Fig. 1. I i

Fig. d is a. view similar to Fig. 1 showing a sprocketwheel with a larger number of teeth. i K

Fig. 5 is a diagrammatic view illustrating a hob having the two finishing cutting edges located on different teeth.

' Fig. 6 is a plan view of the hob and blank shown in Fig. 5.

Fig. 7 is a view illustrating the bobbing of a spline. shaft.

Fig. 8 .is a developed view'of the hob shown in Fig. i.

Fig. 9 is an end view of the hob shown in 7. i

leferring to the accompanying drawings and particularlyto Figs. 1, 2 and 3, a hob l, rotating on an axis my is shown in engagement with a sprocket wheel blank 2. The blank is assumed to rotate on an axis MN and comprises fourteen teeth '3 having straight sides 4 and 5. One of the sides '5 is shown making an angle 0: with aradial line on the blank. Such angle 0,, it will be noted, varies with the number of teeth on the sprocket wheel.

The action of form hobs incutting a est sprocket wheel or a splined shaft may be explained by considering the planing action of a suitable rack in shaping a sprocket wheel or a spline shaft. The rack may be assumed to mesh with the sprocket wheel blank in the position shown occupied by the hob 1. to be a projection of a hob.

The pitch lines for a rack adapted to cut the teeth on the sprocketwheel may e obtained by considering points on the t eth of the wheel. The sprocket wheel 2 is assumed to be in a central position with a tooth space bi-scctcd by a radialline CZ. A line perpen dicular to the side 4 ot the tooth to the right of the line (Z is drawn through a point L. The point L is assumed to be located on the side4- of the tooth under consideration near the top thereof. The line through the point L inte sects the line (.Z at a point L. A line through the point L perpendicularto The rack may be considered ,it-infi position.

the line CZ determines the pitch line for a rack which will cut the side QL or 4 of the tooth shown to the right of the line CZ.

-During meshing between the rack. and the G. If such movement between the rack and the blank is continued beyond a predetermined point the side 6 0n the rack will finally generate an involute on the blank tooth. The involute, I however, is only 'formed on the blanktooth when the line 6 has been moved to the right of-the line LQ as shown in Fig. 1 of'the drawings. Thus,-

the line LQ isthe starting point for the generating operation and up to such position the line 6 outs its own profile on the blank.

tooth. Accordingly if the rolling motion between the rack and the blank is stopped when the line 6 is in the pos'tion LQ,.the rack will cut the straight profi qlLQ and no trace of aninvolute will be formed on the blank teeth.

()n the left of Fig. 1 arediagrammatically shown four different positions, of the cutting side 6 of a rack toothwhile rolling on the circle through point L and having a center at-Cr In each of positions 6 6", and

6 of the side 6 on a rack tooth,' it'is evident that the side 6cuts its own profile on a blank tooth. Moreover, it 'is apparent that each subsequent position ofthe cutting edge 6 completely cuts away the previous profile formed by the cutting edge. In position 6 the cutting edge 6 coincides with the line LQ, and cuts the correct profile on the blank tooth. If'the cutting edge 6 were moved beoynd the position 6 an involute would successively be formed on theblank tooth.

The above operation of the assumed rack is only true when thepitch line of the rack passes through-the point L and when the.

rack and the blank are considered as having relative rolling; movement= on-such pitch line. If the pitch line is assumed to pass through the point L1, apoint beyond the point L on the line CZ, the cutting edge 6 will form a profile similar to LQ on the blank tooth. However, the line LQ is not the limiting positionand the'position when the forming of an involute is started. It is preferable in the case of a hob to use the pitch lino where the line LQ-serves as a lim- A larger lead would cause the thickness of the hob teeth to decrease more towards the end of the hob.

The opposite side N62, of the toothspacc under consideration may beformed by the his ' to the line .of the drawin s. The ditlerence assumed rack in the manner similar to the forming of a side LQ, by the rack. Through .point N at the baseof the tooth a line is drawn perpendicularly .to the hue NQ. Such line intersects the line CZ at the pomt N The pitch line of the assumed rack passes through the point N perpendicularly CZ. A cutting edge 7, which is assumed parallel to the line N Q, is moved toward the blank along the pitch line pass ing through the point N f. c

The cutting edge 7 will start to generate an involute when the line NQ is passed. Accordingly, the relative movement between the hob and the rack is stopped when the position NQ, is reached in order that the cutting edge 7 will form its own contour similar to the line N Q on the tooth of the blank. -The above statement is true for straight feed, per revolution of the blank, whichis equal to or smaller than the circumference oi the circle having a radius GN. The same explanation which was given in explaining the cutting of the side QL of a blank tooth is also applicable to the cutting of the side N of a tootln v In place of considering the blank teeth to boformed with a rack by means of a planino process,

sidcreo to be formed by a hob which would thickness of the hob teeth would vary as is indicated in Fig. 1 of the drawings. The two leads for the sides of the hob teeth would be constructed iii-accordance with the different pitches of the above considered rack. It will be noted that such a hob is used for bobbing sprocket wheels of the silent chain type and that a different hob must be provided ii the number of teeth on the sprocket wheel blank changes.

The hob 1 in Fig. 3 is shown set at an angle 6 with respect to the blank 2. Although such angle is usually made equal to the lead angle 0 the pitch circle, it may be varied and even made zero. The direction of movement of the hob and blank are indicated by the arrows in Figs. 1, 2 and 3 between the of the hob teeth is and b in Fig. 1 of pitch on the two sides-: indicated by the lines. a t c drawings.

Referring to Fig. 4 of the drawings, a hob 11 is shown operating on a sprocket wheel 12 having a larger number of teeth v than the sprocket wheel 2 shown in Figs. 1,

it is 2 and 3 of the drawings. The angle. a between a side of a blanktooth and a radial line'is clearly shown in Fig.4 ot' the drawings to be larger than in Fig. 1. Moreover,

apparent that the difference in load betwccnthe two sides of the hob teeth can be kept smaller the larger the number of teeth to be formed on the sprocket wheel. The

number of teeth difference between the pitch on the two sides of the hob teeth is indicated by the lines a and b in Fig. 4 of the drawings.

According to the above method sprocket wheels having different tooth numbers roquire different hobs. Referring to Figs. 5 and 6 of the drawings, a hob is illustrated which is adapted to form teeth on various sprocket wheels irrespective of the number of teeth thereon if such sprocket wheels are adapted to operate with chains of the same pitch. In Fig. 5, it is apparent the angle 6 formed by the sides of the tooth spaces or the angle 6 formed by the two sides of a tooth change in accordance with the number of teeth on the blank. However when con-. sidering sprocket wheels of the silent chain type, it is apparent the angle 7 whichis formed by opposite sides of adjacent tooth spaces remains unchanged irrespective of the on the blank. It is evident the angle 7 must remain constant it the various sprocket wheels are to mesh with chains having the same size links therein, the angle 7 being the angle of the sides of the links. Thus, if a hob is provided with teeth formed in accordance withthe angle 7 and is adapted to finish adjacent sides of alternate blank tooth on the'blank. one hob may be provided for bobbing sprocket wheels of various numbcrs of teeth which are adapted to operate with the same size chains. The finishing cut, which is indicated as being effected in Fig. 5" of the drawings, is preferably performed in the symmetrical position of the blank. v A hob 15 having teeth 16 is shown in engagemcnt with a sprocket wheel blank 17. The hob rotates on an axis XY and the blank 17, having a center C, rotates on an axis MN'.

The blank 17 is provided with teeth 18,.one of which is symmetrically placed with respect to a radial line CJ'. The hob 15 is provided with two teeth 19 and 20 having formed finishing edges which serve to. finish the teeth on the blank. The f nishing cutting edge of the tooth 10 is adapted 'to finish one side of the tooth to he right of the radial line CJ, and the finishing cuttii'ig edge of the tooth 20 is adapted to finish the tooth to the left of the radial lino C 'Z', as

opposite side of the 1 shown in Fig. 5 of the drawings. The edge of the. tooth finished by tho llQl) tooth l9 is indicated by reference characters AB and the edge of the blank tooth which is finished i by the hob tooth 20 is indicated by the reference characters Di- The pitch lines for the hob mined ina manner similar to the obtaining of the pitch lines of the hob shown in Figs. 1. 2 and 3 of the drawings. A linen drawn though the point B pcrpe'n licularto the line AB and the intersection of such line with the radial line CZ determines the point B. The lead of the one side of the 15 are deter formed through the point D. The leads of the hob teeth are preferably. determined in accordance with the sprocket wheel having the lowest number of teeth. In such case, the positions AB and AD will be the limiting positions for forming a sprocket wheel of such number of teeth and for a sprocket wheel having a larger number of teeth, the

limits will extend beyond the-lines AB "andi A hob, such as illustrated in Figs. and (l of thedrawings, is provided with a some: what larger lead on one side of the hob teeth, namely, the side which carries the cutting edge adapted to finish the side AB of the blank tooth. Moreover, as shown, none of the hob teeth extend-beyond the line AB. The other side of the hob teeth having the cutting edge which forms the line AD on the blank-teeth has a smaller lead than the lead first mentioned. The lead 'last mentioned is maintained only upv to the finishing cutting edge on the tooth 20. Be-

ond the tooth the lead of the hob may e made larger and in fact the same as the lead on the opposite-side of the hob teeth. It is preferable not to have a large. difference in lead between the two sides teeth inasmuch as a large ditferencein the leadcauses the thickness of the hob teeth to decreas'esomewhat rapidly.

Although hobs of the character shown in Figs. 5 and 6 may be formed in a lathe, it is preferable to form such hobs in accordance with the methods disclosed in my apting. angle plication Serial No. 566,855 filed June 8,. .1922.

In Fig. 6 of-the drawings, the hob is shown set at an angle 6 which is the lead angle of the pitch circle. However,the setbetween the blank and the hob may be varied and in fact the angle 0 may be made equal to zero if so desired. It is well known that involute gear hobs may be set at any desired angle with respect'to the lit) blank being cut and. likewise hobs ofqthe above indicated type may be constructed J to beset at any-desired angle with respect to the blank being out.

It is apparent that a hob set square with respect to the blank being cut is more easily centered than a hob set at an atute' angle with respect to the blank. 7

Referring to Figs. 7, 8 and'9 of the draw.- ings, a' hob is shown in engagement with a spline shaft 31. The hob 30 is adapted to rotate on an axis m" 1 and. the spline shaft'3l is adapted to rotate upon an axis Fig.

of the 'C. The hob tooth 36 is shown in operative position'in Fig. 7 of the .drawings and the ptisition of the hob tooth 43 when moved to operative position is indicated by dotted lines in Fig. 7 of the drawings.

The hob 30 is constructed somewhat in the manner of the hob illustrated in Figs. 5 and 6 and is provided with two finishing cutting edges which are located on diii'erent hob teeth. It may be said that the two sides of a tooth .space on a spline shaft are finislied by diiterenth'ob teeth.

In case both sides of the last tooth on the hob carried finishing cutting edges, trouble would be experienced in cutting the bottom of each tooth space. Referring to Fig. 7 of the drawings, a hob tooth G is shown in position on a radial line CV for finishing two sides of a blank tooth space. The hob teeth in such case would necessarily be provided withthe top portion partly siraight and partly curved, as indicated by the tooth G in, Fi 7 of the drawings. The bottom portion 0 each tooth space on the blank can be generated only alon the line CV, and accordingly the curve 7 portion of the tooth space could be generated by straight hob teeth only below the cente fline C--V and after the cuttin teeth had. passed the center. In this regar it may be noted the roughing teethon the hole, one tooth Gr only of which is-shown, are assumed to'ex-' tend above the center line of the blank in 7, of the drawings. The lower porvtion H may be generatedb the-hob teeth whereas the upper portion must from necessity be cut with a formed cutting edge on the hob teeth. Accordingly, it is im possible to avoid constructing the tops of the hob teeth without a composite outline. It is possibleto form the two finishing cutting edges on the same tooth and-provide more teeth after the finishing tooth. In other words, teeth may be providedwhich come into cutting action after the operation of the finishing tooth.- By such means, the

tops of the hob teeth may be-kept substan- However, the manufacture tially straight.

' located of a hole having a finishing tooth intermediate the ends thereof is somewhat 'complicated nasmuch as the lead. on both.

sides 'ofthe hob teeth must change at the' finishing tooth. If the lead were not soi -'1. changed,,,the roughing teeth would'notclear the blank teeth. Furthermore'the teeth fol.- lowing the finishing tooth would do little cutting.

By effecting finishingcuts with two sides of different hob teeth it ispossible to equal" ize the work between the various hob teeth and to provide a hob which is comparatively simple in construction. A hob of theabove indicated type is shown developedin Fig. 8' of the drawings. In Fig. 80f the drawings, the two finishing cutting edges F and F are shown formed on the hob teeth 36 and 43. In this regard it may be noted that the cutting tooth 36 having a finishing edge F is shown in operative position in Fig. 7 of the drawings. '(in' the upper side of the hob teeth'as shown in Fig. 8 of the drawings, the lead changes at the tooth 36. Thus, the teeth 32, 33. 34 and 35 are provided with a lead somewhat larger than on the teeth 36, 37, 38, 39, 40, 41, 42 and 43. Thus,*the upper sides offthe'hob teeth are formed along two different helices.

5 The (second finishing cutting edge F is formed on the last cutting tooth as shown in Fig. 8 of the drawings. .By so locating the second cutting edge on the last hob tooth, it is possible .to provide but a single lead on the lower side of the teeth. Such lead on the lower side of the teeth is preferably made equal'to the lead of the teeth 36 to 43, inclusive. on the upper side of the hob teeth. Accordingly, in the hob shown in Figs. 7, 8 and 9 of the drawings, it is possible to form the two cutting edges on different hob teeth and'to have two different leads on only one side of the hob teeth. The two different leads correspond to the pitch of a rack which is'equivalentto the hob and which would mesh with the spline shaft after the same had been cut. The pitch lines are determined in the manner set forth in discussing Figs. 5 and 6 of the drawings and also in discussing Figs. 1, 2, 3 and 4.- of the drawings. The points K and K" on the radial line CZ in'Fig. 7 of the drawings are points which are determined by drawing lines normal to the sides of the spline shaft teeth. The pitch lines as heretofore explained are obtained by drawing lines through the points K and K perpendicular to the line C-Z.

If a hob of. this type is ground, preferably only the relief surfaces ahead of an up to the finishing edges (F and F" in Fig. 8) are ground. The relief surfaces of the sides following a finishing cutting edge are preferably left unground. Thus, the upper sides of the teeth 36, 37, 38, 39, 40, 41, 42 and 43 would be left unground. Such side cutting edges do no cutting whatever. 'They may therefore be taken back further than shown in the drawings, and particularly so if the hob is to be ground. Thehelix of the upper side of the teeth 37, 38-, 39, 40, 41, 42 and 43 (Fig. 8) intersects then the helix constituted by the uppersides of the teeth 32, 33,

. 34, 35 and 36 ahead of F, which is another way of saying that the finishing edge F protrudes over the helix of the following teeth.

It will be understood that such changes and modifications-may be made in my invention as fall within the limits of the appended claims.

5 What I claimis:

1. A hob formilling sprocket wheels, comprising teeth arranged in the form of a thread and having two formed cutting edges located on different teeth, the lead on the two sides of the hob teeth being different and the thickness of the teeth being progressively less from one end to the other end of the hob.

2. A hob, comprising teeth. arranged in the form of a thread, the lead on the two sides of the hobteeth being different for cut ting straight sided sprocket wheel teeth of a sides of the teeth being different and of" such amount that two teeth effect the finishing cuts to form straight sided sprocket teeth on a blank.

4. A hob for milling a blank having straight sided teeth making a positive angle with a radial line on the blank, comprising teeth arranged in the form of a thread and having two formed cutting edges located on different teetln'thethickness of the teeth being progressively less from one end to the other end of the hob, and the lead on the two sides of the teeth varying.

5. A form hob for milling a blank having straight sided teeth making a positive angle with a radial line on the blank, comprising teeth arranged in the form of a thread, the lead on the two sides of. the teeth being so varied as tochange the thickness of the teeth so that two teeth effect the finishing cuts. i

6. A form hob, comprising teeth formed on a body member, two formed cutting edges for effecting the finishing cuts on the two sides ofthe teeth of the blank being located on different hob teeth.

7. A form hob, comprising'teeth arranged in the form of a thread, the lead on the two sides of the teeth being different and two formed cutting edges for effecting the finishing cuts on the teeth of the blank being located on different hob teeth.

8. A form hob, comprising teeth arranged in the form of. a thread. two formed cutting edges for effecting finishing cuts on the two sides of the-teeth of the blank beinglocated on different hob teeth, one of the finishing teeth being located at the end of the hob. 9. A form hob, comprising teeth arranged in the form of a thread, the lead on the two sides of the teeth being different and two formed cutting edges for effecting finishing cuts on the teeth of the blank being located on different hob teeth, one of the finishing teeth being located at the end of the hob. I

10. A form hob, comprising teeth arranged in the form of a thread, two formed cutting edges located on different hob teeth for finishing the two sides of the teeth on in the form of a thread, said teeth having two finishing cutting edges formed on two adjacent hob teeth for simultaneously finishing one side of twoiblank teeth.

13,-A form hob for cutting teeth on sprocket wheels, comprising teeth having two-substantially straight finishing cutting .-edges, said two formed outing edges being located on opposite sides of two adjacent hob teeth.

14. A form hob for cutting teeth on sprocket wheels, comprising teeth having two formed straight cutting edges located on difierent teeth, the cutting edges on the hob teeth have approximately the same inclination as the sides of-achain link adapted to fit the sprocket .wheel blank.

15. A -form hob for cutting teeth on sprocket wheels of the silent chain type,

comprising teeth having straight cutting edges, the cutting edges (in the hob teeth having a proximately the same inclination as the si es of achain link adapted to fit the sprocket wheel blank and being so arran ed as to cut sprocket wheels of various nun ibers of; teeth- 16; A form hob, comprising teeth ar-= ranged in the form of a thread, the cutting edges on one side of the hob teeth being grouped along helices and the cutting edges on the opposite side of thehob teeth being.

grouped along a single helix.

17. A form hob, comprising teeth arranged in the form of a thread, a series of the hob teeth being of constant thickness and a second series of the hob teeth being formed with a gradually changing thickness; i

18. A form hob, comprising teeth arranged in the form bf'a thread, a series of the hob teeth being'of constant-thickness and a second S'eriesiofthe hob teeth being .formcd with a gradually decreasing thickness, the hob teeth being so arranged to effect cutting by the second series of teeth after the first series of hob teeth have effected a cutting operation.

19. A form hob, comprising teeth ary ranged in the form of a thread, a series of the hob teeth being of constant thickness and a second series of the hob teeth being formed with a gradually decreasing thickness.

20. A form hob, comprising teeth ar- .ranged in the form ofa thread and having two ground formed edges located on different hob teeth, one of said ground finish ing cutting edges projecting beyond the surface formed by the cutting edges of the subsequent teeth.

21. A form hob, Jccmp'rising teeth arranged in the form (if a thread and having two ground formed edges located on different hob teeth, one of said formed cutting edges being locatedbetween the ends of the" hob, the side relieved surfaces preceding the finishing edge being ground and the side rellGVBd'SlIIffiCGS following the finishing cutting edge beinggun'gronnd.

22. A form hob, comprising teeth arranged in the formjof a thread and having two ground formed edges located-on different hob teeth, one of said formed edges on the hob serving to f cut a similar contour on the blank, a portion only of the side re li'eved surfaces on the hob being ground.

'23. A form hob for cutting teeth on sprocket'wheels, comprising teeth arranged in the form of a thread and having two form cutting edges located on different teeth, said,

form cutting edges being solocated as tq1 simultaneously efliect finishing cuts on op-g posite sides of alternate blankteeth.

24. A form hob for cutting teeth or. sprocket wheels, comprising teeth arranged in the fQIIII'TO f. a thread and having two form cutting e 'ges located on different teeth,

the teeth having finishing edges formed thereon being located in side by side relation.

25. A "form hob for cuttin teeth on sprocket wheels, comprising teeth arranged in the form lot a thread and having two form cutting edges located on different hob teeth, said [cutting edges being so located as to'jsiniultaneously effect finishing cuts on twofdit'fe rent blank teeth.

In testimony whereof, I hereto afiix my sign attire.

I ERNEST WiLnnABnR. 

